CN204282479U - A kind of double controlling organization touching draining valve - Google Patents

Abstract

The utility model discloses a kind of double controlling organization touching draining valve, double controlling organization comprises base, float component and start assembly, start assembly comprises the first starting switch and the second starting switch, float component activity is installed in valve body and the start assembly that is in transmission connection, float component is provided with passage flow duct, passage flow duct is communicated with inside and outside the floating chamber of float component, and start assembly controls the size of this passage flow duct; Operating the first starting switch drives float component to rise, and start assembly opens a little passage flow duct, and suffered the making a concerted effort of float component is subject to the impact of this little passage flow duct and realizes the first row water yield; Operating the second starting switch drives float component to rise, and start assembly opens a large passage flow duct, the suffered of float component realizes the second row water yield by the impact of this large passage flow duct with joint efforts.This soft push drain valve not only can realize folk art term draining, and structure is simple, and exploitativeness is strong, draining good stability.

Description

A kind of double controlling organization touching draining valve

Technical field

The utility model relates to a kind of double controlling organization touching draining valve.

Background technology

Existingly touch draining valve, as Chinese patent notification number be CN203684356U, patent name is the patent of the two punching bucket valve of double chain type, it is by the water supply volume of vertically disposed two buckets difference adjusting size bath, upper bucket is always floating drum, end bucket when not washing by water, large bath time then water filling when being floating drum, little bath, the displacement stability of the program is bad, and realizes two the seal gaskets sealings of size bath needs, easily leak, exploitativeness difference and troublesome poeration.

Utility model content

The utility model provides the double controlling organization touching draining valve, which overcomes the deficiency existing for background technology.The utility model solves the technical scheme that its technical problem adopts: a kind of double controlling organization touching draining valve, it comprises base (10), float component and start assembly, the upper attaching valve body (20) of base (10), base (10) offers outfall (11), float component can move relative to described base (10) and can open or close outfall (11), start assembly comprises the first starting switch and the second starting switch, float component activity is installed in valve body (20) and the start assembly that is in transmission connection, float component is provided with passage flow duct, passage flow duct is communicated with the floating chamber (112 of float component, 152) inside and outside, start assembly controls the size of this passage flow duct, operating the first starting switch drives float component to rise, and start assembly opens a little passage flow duct, and suffered the making a concerted effort of float component is subject to the impact of this little passage flow duct and realizes the first row water yield, operating the second starting switch drives float component to rise, and start assembly opens a large passage flow duct, the suffered of float component realizes the second row water yield by the impact of this large passage flow duct with joint efforts.

Among one preferred embodiment: start assembly also comprises switch piece and control member, switch piece is in transmission connection the first starting switch and the second starting switch, switch piece coordinates with control member transmission, control member matches with described passage flow duct, operates the first starting switch or the second starting switch by switch piece transmission control member to control size or the opening and closing of passage flow duct.

Among one preferred embodiment: described first starting switch and the second starting switch comprise activity respectively and be installed in the first button (21) on valve body (20) and the second button (22), described switch piece is slide block (310, 330, 340), this slide block (310, 330, 340) horizontal sliding installation is at valve body (20) and be in transmission connection the first button (21) and the second button (22), slide block (310, 330, 340) press block (311 is provided with, 331, 341, 342), control member is provided with and is supported block (220, 242, 261, 271, 281), by press block (311, 331, 341, 342) with by support block (220, 242, 261, 271, 281) to be staggered or contact coordinates and realizes switch piece and coordinate with the transmission of control member.

Among one preferred embodiment: described first starting switch and the second starting switch comprise activity respectively and be installed in the first button (21) on valve body (20) and the second button (22), described switch piece is the fork (320) that rotation is installed in valve body (20), fork (320) has the first centering block (321) and the second centering block (322), first centering block (321) coordinates with button transmission, and the second centering block (322) is staggered with control member or phase contact coordinates and realizes switch piece and coordinate with the transmission of control member.

Among one preferred embodiment: described float component comprises floating drum (110) and is installed in the base plate (120) of floating drum (110) bottom, described floating chamber (112) is formed between base plate (120) and floating drum (110), base plate (120) is provided with the inlet through hole connecting described floating chamber (112) and outfall (11), operate the little passage flow duct described in the less formation of this inlet through hole that the first starting switch is opened, water enters floating drum (110) inside from this little passage flow duct and realizes the first row water yield, operate the large passage flow duct described in the larger formation of this inlet through hole that the second starting switch is opened, water enters floating drum (110) inside from this large passage flow duct and realizes the second row water yield.

Among one preferred embodiment: described float component comprises floating drum (110) and is installed in the base plate (120) of floating drum (110) bottom, described floating chamber (112) is formed between base plate (120) and floating drum (110), base plate (120) is provided with the first inlet through hole (121) and the second inlet through hole (122) that can connect described floating chamber (112) and outfall (11), little passage flow duct described in first inlet through hole (121) is formed, large passage flow duct described in second inlet through hole (122) is formed, or the first inlet through hole (121) and the second inlet through hole (122) form described large passage flow duct jointly, when operating the first starting switch, to enter floating drum (110) from the little passage flow duct that the first inlet through hole (121) is formed inner and realize the first row water yield for water, when operating the second starting switch, water enters the inner or water of floating drum (110) from the large passage flow duct that the second inlet through hole (122) is formed and enters floating drum (110) inside to realize the second row water yield from the large passage flow duct that the first inlet through hole (121) and the second inlet through hole (122) are formed jointly.

Among one preferred embodiment: described control member comprises the first one way valve being installed in the first inlet through hole (121) and the second one way valve being installed in the second inlet through hole (122), when switch piece is staggered with the second one way valve, switch piece coordinates with the first one way valve phase contact to make that the first inlet through hole (121) is opened, the second inlet through hole (122) is closed, and when switch piece is staggered with the first one way valve, switch piece coordinates with the second one way valve phase contact to make that the second inlet through hole (122) is opened, the first inlet through hole (121) is closed.

Among one preferred embodiment: described control member is installed in floating drum (110), control member comprises a control panel (210), control panel (210) offers the First Transition hole (211) that can be connected with the first inlet through hole (121), when switch piece and control member are staggered and coordinate, control panel (210) and base plate (120) fit to close the second inlet through hole (122) and the first inlet through hole (121) and First Transition hole (211) are connected to make the first inlet through hole (121) stay open state, when switch piece coordinates with control member phase contact, control panel (210) and base plate (120) are separated to open the second inlet through hole (122).

Among one preferred embodiment: also comprise the first adjustment sheet (130) and the second adjustment sheet (140) that rotate relative to base plate (120) respectively, first adjustment sheet (130) offers the first adjustment hole (131) for regulating the first inlet through hole (121) size, and the second adjustment sheet (140) offers the second adjustment hole (141) for regulating the second inlet through hole (122) size.

Among one preferred embodiment: described float component comprises floating drum (150) and is installed in the seal diaphragm (151) in floating drum (150), described floating chamber (152) is formed between floating drum (150) and seal diaphragm (151), floating chamber (152) is connected with outfall (11), seal diaphragm (151) is provided with the one stack/hole that can be connected with floating chamber (152) and outside air, this the little passage flow duct described in less formation in stack/hole opened when operating the first starting switch, water enters in floating chamber (152) and realizes the first row water yield to be discharged from this little passage flow duct by the air floated in chamber (152), this the large passage flow duct described in larger formation in stack/hole opened when operating the second starting switch, water enters in floating chamber (152) to be discharged from this large passage flow duct to realize the second row water yield by the air floated in chamber (152).

Among one preferred embodiment: described float component comprises floating drum (150) and is installed in the seal diaphragm (151) in floating drum (150), described floating chamber (152) is formed between floating drum (150) and seal diaphragm (151), floating chamber (152) is connected with outfall (11), seal diaphragm (151) is provided with the downtake pipe/hole and second exhaust pipe/hole that can be connected with floating chamber (152) and outside air, downtake pipe/hole forms described little passage flow duct, second exhaust pipe/hole forms described large passage flow duct, or downtake pipe/hole and second exhaust pipe/hole form described large passage flow duct jointly, when operating the first starting switch, water enters in floating chamber (152) so that the air float in chamber (152) is realized the first row water yield from the little passage flow duct discharge of downtake pipe/hole formation, when operating the second starting switch water enter in floating chamber (152) with will the large passage flow duct discharge that jointly formed of the large passage flow duct discharge that formed from second exhaust pipe/hole of the air float in chamber (152) or downtake pipe/hole and second exhaust pipe/hole to realize the second row water yield.

Among one preferred embodiment: described control member comprises the first one way valve (260) being installed in downtake pipe/hole and the second one way valve (270) being installed in second exhaust pipe/hole, when switch piece is staggered with the second one way valve (270) switch piece coordinate that downtake pipe/hole is opened with the first one way valve (260) phase contact, second exhaust pipe/bore closure, when switch piece is staggered with the first one way valve (260) switch piece coordinate that second exhaust pipe/hole is opened with the second one way valve (270) phase contact, downtake pipe/bore closure.

Among one preferred embodiment: described downtake pipe (153) forms described little passage flow duct, described downtake pipe (153) and second exhaust pipe (154) form described large passage flow duct jointly, described control member is for being installed in the one way valve (230) in second exhaust pipe (154), downtake pipe (153) remains open mode, when switch piece and control member are staggered and coordinate, second exhaust pipe (154) closed by this one way valve (230), when switch piece coordinates with control member phase contact, second exhaust pipe (154) opened by this one way valve (230).

Among one preferred embodiment: described downtake pipe (153) and second exhaust pipe (154) all vertically activity are installed in seal diaphragm (151) to regulate the height of the bottom port of downtake pipe (153) and second exhaust pipe (154) in floating chamber (152), or, described downtake pipe (153) and second exhaust pipe (154) are all fixedly attached in seal diaphragm (151), separately be provided with the first adjusting sleeve pipe (155) and the second adjusting sleeve pipe (156), first adjusting sleeve pipe (155) is actively socketed on downtake pipe (153) bottom to regulate the height of the bottom port of the first adjusting sleeve pipe (155) in floating chamber (152), second adjusting sleeve pipe (156) is actively socketed on second exhaust pipe (154) bottom to regulate the height of the bottom port of the second adjusting sleeve pipe (156) in floating chamber (152).

Among one preferred embodiment: described first row pore (157) forms described little passage flow duct, described first row pore (157) and second row pore (158) form described large passage flow duct jointly, described control member activity is installed in floating chamber (152), control member comprises control panel (240), control panel (240) offers second transitional pore (241) that can be connected with first row pore (157), when switch piece and control member are staggered and coordinate, control panel (240) and seal diaphragm (151) fit to close second row pore (158) and first row pore (157) and the second transitional pore (241) are connected to make first row pore (157) stay open state, when switch piece coordinates with control member phase contact, control panel (240) and seal diaphragm (151) are separated to open second row pore (158).

Among one preferred embodiment: also comprise activity and be installed in the first adjusting rod (251) in float component and the second adjusting rod (252), the top of the first adjusting rod (251) is provided with the first adjusting portion (253), the top of the second adjusting rod (252) is provided with the second adjusting portion (254), first adjusting portion (253) regulates the size of first row pore, and the second adjusting portion regulates the size of second row pore (158).

Among one preferred embodiment: described float component comprises the hollow form floating drum (110 of a longitudinally Axis Extension, 150), described hollow form floating drum (110,150) and valve body (20) are socketed and coordinate and move back and forth along valve body (20) vertical direction.

Among one preferred embodiment: described valve body (20) is provided with guide peg (23), guide peg (23) is fixedly attached on base (10), hollow form floating drum (110,150) to be socketed on outside guide peg (23) and vertically to move back and forth along this guide peg (23).

Among one preferred embodiment: described valve body (20) is provided with a housing (28), housing (28) is fixedly attached on base (10), hollow form floating drum (110,150) to be socketed within housing (28) and vertically to move back and forth along this housing (28).

Among one preferred embodiment: described start assembly also comprises at least onely argues for the sake of arguing (24,25), argue for the sake of arguing (24,25) activity to be secured on valve body and the float component that is in transmission connection, operate the first starting switch or the second starting switch make to argue for the sake of arguing (24,25) swing and mention float component and carry out draining.

The technical program is compared with background technology, and its tool has the following advantages:

1. float component is provided with passage flow duct, passage flow duct is communicated with inside and outside the floating chamber of float component, start assembly controls the size of this passage flow duct, operating the first starting switch can make start assembly open a little passage flow duct in keg float assembly, suffered making a concerted effort by the impact of this little passage flow duct of float component and realize the first row water yield; Operating the second starting switch can make start assembly open the large passage flow duct of one in keg float assembly, and suffered the making a concerted effort of float component is subject to the impact of this large passage flow duct and realizes the second row water yield, realizes the double-drainage function of draining valve thus.This soft push drain valve not only can realize folk art term draining, and structure is simple, and exploitativeness is strong, draining good stability.

2. float component comprises floating drum and is installed in the base plate bottom floating drum, described floating chamber is formed between base plate and floating drum, base plate is provided with the inlet through hole connecting described floating chamber and outfall, inlet through hole and described passage flow duct, inlet through hole can arrange one or two or multiple, by controlling the size opened of inlet through hole or opening and closing to realize the size of control passage flow duct.When passage flow duct open hour, when floating drum is raised and carries out draining, water enters floating drum inside from little passage flow duct, and water intake velocity is comparatively slow, and float component falling speed is comparatively slow and realize big yield draining, and this displacement is the first row water yield; When passage flow duct is opened large, when floating drum is raised and carries out draining, water enters floating drum inside from large passage flow duct, and water intake velocity is very fast, and float component falling speed is very fast and realize little water yield draining, and this displacement is the second row water yield; This double-drainage principle is simple, and structure is simple and compact, and draining good stability, exploitativeness is strong.

3. float component comprises floating drum and is installed in the seal diaphragm in floating drum, described floating chamber is formed between floating drum and seal diaphragm, floating chamber and outfall are connected, seal diaphragm is provided with the stack/hole that can be connected with floating chamber and outside air, stack/hole and described passage flow duct, stack/hole can arrange one or two or multiple, by controlling the size opened of stack/hole or opening and closing to realize the size of control passage flow duct.When passage flow duct open hour, when floating drum is raised and carries out draining, it is comparatively slow that water enters the speed of being discharged from stack/hole by the air in floating chamber in floating chamber, suffered by float component upwards make a concerted effort larger, make its falling speed comparatively slow and realize big yield draining, this displacement is the first row water yield; When passage flow duct is opened large, when floating drum is raised and carries out draining, water enters the speed that the air in floating chamber is discharged from stack/hole by floating chamber, suffered by float component upwards make a concerted effort less, make its falling speed very fast and realize little water yield draining, this displacement is the second row water yield; This double-drainage principle is simple, and structure is simple and compact, and draining good stability, exploitativeness is strong.

4. start assembly is by arranging switch piece and the control member of mutual transmission cooperation, switch piece and first, second starting switch are in transmission connection, control member matches with passage flow duct, the control of first, second starting switch realization to the size of passage flow duct is made by switch piece and control member, this control structure is simple, and reliability is strong.

5. by arranging adjustment sheet, adjusting sleeve pipe or adjusting rod to realize adjustment to passage flow duct size, make the first row water yield and the second row water yield adjustable separately, facilitate the demand of different user, and easy to adjust, structure is simple, reliable in function.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Fig. 1 depicts the perspective exploded view of touching the double controlling organization of draining valve of the first preferred embodiment.

Fig. 2 depicts the view of carrying out the first row water yield of the first preferred embodiment.

Fig. 3 depicts one of structural representation of the float component of the first preferred embodiment.

Fig. 4 depicts the view of carrying out the second row water yield of the first preferred embodiment.

Fig. 5 depicts the structural representation two of the float component of the first preferred embodiment.

Fig. 6 depicts the perspective exploded view of touching the double controlling organization of draining valve of the second preferred embodiment.

What Fig. 7 depicted the second preferred embodiment touches one of cross-sectional schematic of the double controlling organization of draining valve

Fig. 8 depicts the cross-sectional schematic two of touching the double controlling organization of draining valve of the second preferred embodiment.

What Fig. 9 depicted the second preferred embodiment carries out one of view of the first row water yield.

Figure 10 depicts the view two of carrying out the first row water yield of the second preferred embodiment.

What Figure 11 depicted the second preferred embodiment carries out one of view of the second row water yield.

Figure 12 depicts the view two of carrying out the second row water yield of the second preferred embodiment.

Figure 13 depicts the perspective exploded view of touching the double controlling organization of draining valve of the 3rd preferred embodiment.

What Figure 14 depicted the 3rd preferred embodiment carries out one of view of the first row water yield.

Figure 15 depicts the B-B sectional view of Figure 14.

Figure 16 depicts the view two of carrying out the first row water yield of the 3rd preferred embodiment.

What Figure 17 depicted the 3rd preferred embodiment carries out one of view of the second row water yield.

Figure 18 depicts the A-A sectional view of Figure 17.

Figure 19 depicts the view two of carrying out the second row water yield of the 3rd preferred embodiment.

A kind of preferred mapped structure that Figure 20 depicts the 3rd preferred embodiment touches the perspective exploded view of the double controlling organization of draining valve.

A kind of preferred mapped structure that Figure 21 depicts the 3rd preferred embodiment carries out one of view of the first row water yield.

A kind of preferred mapped structure that Figure 22 depicts the 3rd preferred embodiment carries out the view two of the first row water yield.

A kind of preferred mapped structure that Figure 23 depicts the 3rd preferred embodiment carries out one of view of the second row water yield.

A kind of preferred mapped structure that Figure 24 depicts the 3rd preferred embodiment carries out the view two of the second row water yield.

The another kind that Figure 25 depicts the 3rd preferred embodiment preferably mapped structure carries out the view of the first row water yield.

The another kind that Figure 26 depicts the 3rd preferred embodiment preferably mapped structure carries out the view of the second row water yield

Figure 27 depicts the cross-sectional schematic of touching the double controlling organization of draining valve of the 4th preferred embodiment.

Detailed description of the invention

Embodiment one:

Please refer to Fig. 1 to Fig. 5, touch the first preferred embodiment of the double controlling organization of draining valve, the described double controlling organization touching draining valve, it comprises base 10, float component, start assembly.

Described base 10 offers outfall 11, attaching valve body 20 on base 10, and float component can move relative to described base 10 and can open or close outfall 11.

In the present embodiment, described float component comprises the hollow form floating drum 110 of a longitudinally Axis Extension, and described hollow form floating drum 110 and valve body 20 are socketed and coordinate and move back and forth along valve body 20 vertical direction.

Start assembly comprises the first starting switch, the second starting switch, and in the present embodiment, the first starting switch and the second starting switch are respectively the first button 21 and the second button 22.

Start assembly also comprises switch piece and control member, switch piece be in transmission connection the first starting switch or and the second starting switch, switch piece is staggered with control member or contact coordinates.

Described valve body 20 is installed in base 10, and the first button 21 and the second button 22 activity are installed on valve body 20.And, be equipped with back-moving spring 26 between the first button 21 and valve body 20 and between the second button 22 and valve body 20.

In the present embodiment, described valve body 20 is provided with the guide peg 23 for leading to float component, and guide peg 23 is fixedly attached on base 10, and floating drum 110 is slidably socketed at guide peg 23 outer and vertically move back and forth along this guide peg 23; Described valve body 20 is also provided with first and argues for the sake of arguing and 24 and second argue for the sake of arguing and 25, the first argue for the sake of arguing and 24 to be in transmission connection the first button 21 and float component, and second argues for the sake of arguing 25 to be in transmission connection the second button 22 and float component.Or in the present embodiment, number of arguing for the sake of arguing only establishes one, the first button 21 and the second button 22 are all argued for the sake of arguing with this and are in transmission connection.

Described float component activity is installed in valve body 20 and first button 21 and the second button 22 that be in transmission connection, and float component is provided with passage flow duct, and passage flow duct is communicated with inside and outside the floating chamber of float component, and start assembly controls the size of this passage flow duct.

Operating the first starting switch drives float component to rise, and start assembly opens a little passage flow duct, and suffered the making a concerted effort of float component is subject to the impact of this little passage flow duct and realizes the first row water yield; Operating the second starting switch drives float component to rise, and start assembly opens a large passage flow duct, the suffered of float component realizes the second row water yield by the impact of this large passage flow duct with joint efforts.Wherein, described passage flow duct can be a passage flow duct or several passage flow ducts combine, and when passage flow duct number is one, this passage flow duct opening degree of described little through-flow Dow Jones index is less, and this passage flow duct opening degree of described large through-flow Dow Jones index is larger; When passage flow duct number is two or more, the degree that these two or more passage flow ducts of described little through-flow Dow Jones index are opened jointly is less, and the degree that these two or more passage flow ducts of described large through-flow Dow Jones index are opened jointly is larger.As long as operate the first starting switch and the second starting switch in the utility model to realize making to be communicated with degree summation that the inside and outside passage flow duct that floats chamber opens respectively and possess one large and one little, can realize the folk art term draining of draining valve, the concrete number of passage flow duct is then unrestricted.

Start assembly comprises switch piece and control member, switch piece is in transmission connection the first starting switch and the second starting switch, switch piece coordinates with control member transmission, control member matches with described passage flow duct, operates the first starting switch or the second starting switch by switch piece transmission control member to control size or the opening and closing of passage flow duct.

In the present embodiment, described passage flow duct is provided with the first passage flow duct and the second passage flow duct, pressing the first button 21 drives float component to rise, switch piece and control member be staggered coordinate to make control member close the second passage flow duct, float component suffered little passage flow duct of making a concerted effort to be formed by the first passage flow duct impact and realize the first row water yield; Pressing the second button 22 drives float component to rise, switch piece coordinate with control member phase contact to make control member open the second passage flow duct, float component suffered large passage flow duct of making a concerted effort jointly to be formed by the first passage flow duct and the second passage flow duct impact and realize the second row water yield.

In the present embodiment, the base plate 120 that described float component comprises floating drum 110 and is installed in bottom floating drum 110, described floating chamber 112 is formed between base plate 120 and floating drum 110, base plate 120 is provided with can connect the floating chamber 112 of floating drum 110 inside and the first inlet through hole 121 and the second inlet through hole 122 of outfall 11, first inlet through hole 121 is the first described passage flow duct, second inlet through hole 122 is the second described passage flow duct, when pressing the first button 21, to enter floating drum 110 from the little passage flow duct that the first inlet through hole 121 is formed inner and realize the first row water yield for water, the large passage flow duct that when pressing the second button 22, water is formed jointly from the first inlet through hole 121 and the second inlet through hole 122 enters floating drum 110 inside to realize the second row water yield simultaneously.

In the present embodiment, described float component also comprises auxiliary float 40, and it is installed on floating drum 110 by clamping, and auxiliary float 40 and floating drum 110 joint activity are socketed on outside valve body 20.

In the present embodiment, be also provided with fairlead 111 in described floating drum 110, fairlead 111 is for leading to the activity of control member.

In the present embodiment, described control member is installed in floating drum 110, control member comprises one and is installed in control panel 210 below base plate 120, control panel 210 offers the First Transition hole 211 that can be connected with the first inlet through hole 121, when switch piece and control member are staggered and coordinate, control panel 210 and base plate 120 fit to close the second inlet through hole 122 and the first inlet through hole 121 is connected to make the first inlet through hole 121 stay open state with First Transition hole 211, when switch piece coordinates with control member phase contact, control panel 210 and base plate 120 are separated to open the second inlet through hole 122.

In the present embodiment, described control member is provided with and is supported block 220.In the present embodiment, this control member also comprises the top board 212 be located in floating drum 110, top board 212 is fixedly connected by the joint pin 213 that passes bottom center hole 123 with control panel 210, this is supported block 220 and is fixedly attached at the top end face of top board 212, is supported block 220 through the pilot hole on fairlead 111.

Described switch piece, it is in transmission connection the first button 21 and the second button 22.

In the present embodiment, described switch piece is slide block 310, the horizontal sliding installation of this slide block 310 is at valve body 20, slide block 310 is to having press block 311, pressing the first button 21 is with movable slider 310 to slide to make press block 311 and supported block 220 and be staggered and coordinate, presses the second button 22 and is with movable slider 310 to slide press block 311 is coordinated with by block 220 phase contact.In the present embodiment, be provided with chute in valve body 20, slide block 310 activity is installed in this chute, and slide block 310 is provided with two inclined-planes, and two inclined-planes coordinate realization to be in transmission connection with the inclined-plane on the first button 21 and the second button 22 respectively.

In the present embodiment, this draining valve also comprises respectively relative to the first adjustment sheet 130 and the second adjustment sheet 140 that base plate 120 rotates, first adjustment sheet 130 is positioned at the below of base plate 120, second adjustment sheet 140 is positioned on base plate 120, first adjustment sheet 130 offers for regulating the first adjustment hole 131, second adjustment sheet 140 of the first inlet through hole 121 size to offer the second adjustment hole 141 for regulating the second inlet through hole 122 size.In the present embodiment, first adjustment sheet 130 and the second adjustment sheet 140 are provided with the convex tendon that can turn for hand-screw to facilitate manual adjustments, convex tendon on second adjustment sheet 140 passes base plate 120 downwards by the second inlet through hole 122, it is made to regulate from bottom, or the convex tendon on the second adjustment sheet 140 also can pass floating drum sidewall, make it regulate from sidepiece, its regulative mode is not as limit.

In the present embodiment, this draining valve also comprises the return springs 30 for resetting to control member, and its contact is between control member and the base plate of float component, and under the effect of return springs 30, control panel 210 resets and realizes again fitting with base plate 120.

Its operating principle is:

Press the first button 21, first argue for the sake of arguing 24 drive floating drums 110 and control member upwards floats simultaneously, meanwhile, first button 21 promotes slide block 310 and moves to the second button 22 direction, due to press block 311 with supported block 220 and be staggered and make control member continue to move up, control panel 210 and base plate 120 keep initial phase fit-state, now this control panel 210 closes the second inlet through hole 122, and the first inlet through hole 121 remains with First Transition hole 211 state of being connected, water enters floating drum 110 inside by First Transition hole 211 and the first inlet through hole 121 and floating drum 110 weight is increased, when the weight of floating drum 110 is greater than the buoyancy suffered by it, floating drum 110 drops downwards and carries out sealing, displacement is now the first row water yield, because water can only enter floating drum 110 inside from the first inlet through hole 121, water intake velocity is slow, the time that floating drum is floated is longer, fall slower, so time the first row water yield be large displacement.

Press the second button 22, second argue for the sake of arguing 25 drive floating drums 110 and control member upwards floats simultaneously, meanwhile, second button 22 promotes slide block 310 and moves to the first button 21 direction, due to press block 311 with supported block 220 phase contact and coordinated and make control member cannot continue to move up control panel 210 and base plate 120 are separated, now this control panel 210 opens the second inlet through hole 122, second inlet through hole 122 and the first inlet through hole 121 are all in open mode, water enters floating drum 110 inside by the first inlet through hole 121 and the second inlet through hole 122 simultaneously and floating drum 110 weight is increased, when the weight of floating drum 110 is greater than the buoyancy suffered by it, floating drum 110 drops downwards and carries out sealing, displacement is now the second row water yield, because water can enter floating drum 110 inside from the first inlet through hole 121 and the second inlet through hole 122 simultaneously, water intake velocity increases, the time that floating drum 110 is floated is shorter, fall very fast, so time the second row water yield be little displacement.

And by adjustment first adjustment sheet 130 and the second adjustment sheet 140, to regulate the size of the first inlet through hole 121 and the second inlet through hole 122, when making draining, to enter the speed of floating drum 110 inside adjustable for water, realizes the difference of the first row water yield and the second row water yield adjustable.

Or, one as the present embodiment preferably converts, first inlet through hole 121 can be set and form described little passage flow duct, large passage flow duct described in second inlet through hole 122 is formed separately, when pressing the first button 21, to enter floating drum 110 from the little passage flow duct that the first inlet through hole 121 is formed inner and realize the first row water yield for water, and when pressing the second button 22, water enters floating drum 110 inside to realize the second row water yield from the large passage flow duct that the second inlet through hole 122 is formed.Accordingly, described control member comprises the first one way valve being installed in the first inlet through hole 121 and the second one way valve being installed in the second inlet through hole 122, when switch piece is staggered with the second one way valve, with the first one way valve phase contact, switch piece coordinates that the first inlet through hole 121 is opened, the second inlet through hole 122 closes, and when switch piece is staggered with the first one way valve, with the second one way valve phase contact, switch piece coordinates that the second inlet through hole 122 is opened, the first inlet through hole 121 closes.

Or, another kind as the present embodiment preferably converts, described base plate 120 is only provided with the inlet through hole connecting described floating chamber 112 and outfall 11, operate the little passage flow duct described in the less formation of this inlet through hole that the first starting switch is opened, water enters floating drum 110 inside from this little passage flow duct and realizes the first row water yield, operate the large passage flow duct described in the larger formation of this inlet through hole that the second starting switch is opened, water enters floating drum 110 inside from this large passage flow duct and realizes the second row water yield, when operating the first starting switch, control member is made to open this inlet through hole by switch piece less, when operating the second starting switch, control member is made to open this inlet through hole by switch piece larger.Switch piece can be slide block, slide block is provided with the first press block and the second press block, control member is the controlled valve that can control inlet through hole size, controlled valve is provided with and is supported block, press the first button, the on slide block first low briquetting is coordinated the degree that controlled valve is opened with the block contact of being supported on controlled valve less that inlet through hole is opened is less; Press the second button, to be coordinated the degree that controlled valve is opened to make more greatly inlet through hole open larger on slide block second low briquetting and the block contact of being supported on controlled valve, and then realize the first row water yield and the second row water yield of draining valve, so also the purpose of this utility model can be realized, its operating principle and process similar to the above, repeat no more here.

Embodiment two:

Please refer to Fig. 6 to Figure 12, for touching the second preferred embodiment of the double controlling organization of draining valve.The difference part of the present embodiment and a upper embodiment is:

In the present embodiment, the seal diaphragm 151 that described float component comprises floating drum 150 and is installed in floating drum 150, the floating chamber 152 be connected with outfall 11 is formed between floating drum 150 and seal diaphragm 151, seal diaphragm 151 is provided with the downtake pipe 153 and second exhaust pipe 154 that can be connected with floating chamber 152 and outside air, downtake pipe 153 is the first described passage flow duct, second exhaust pipe 154 is the second described passage flow duct, press water when the first button 21 mentions floating drum 150 to enter in floating chamber 152 and realize the first row water yield to be discharged from the little passage flow duct that downtake pipe 153 is formed by the air in floating chamber 152, press water when the second button 22 mentions floating drum 150 to enter in floating chamber 152 so that the air in floating chamber 152 is discharged to realize the second row water yield from the large passage flow duct that downtake pipe and second exhaust pipe are formed jointly simultaneously.

In the present embodiment, when passage flow duct number is one, the height of bottom port in floating chamber 152 of this stack of described little through-flow Dow Jones index is lower, and the height of bottom port in floating chamber 152 of this stack of described large through-flow Dow Jones index is higher; When passage flow duct number is two or more, the height of bottom port in floating chamber 152 of these two or more stacks of described little through-flow Dow Jones index is lower, and the height of bottom port in floating chamber 152 of these two or more stacks of described large through-flow Dow Jones index is higher.

In the present embodiment, described downtake pipe 153 and second exhaust pipe 154 are all fixedly attached at seal diaphragm 151, separately be provided with the first adjusting sleeve pipe 155 and the second adjusting sleeve pipe 156, first adjusting sleeve pipe 155 is actively socketed on downtake pipe 153 bottom to regulate the height of the bottom port of the first adjusting sleeve pipe 155 in floating chamber 152, second adjusting sleeve pipe 156 is actively socketed on second exhaust pipe 154 bottom to regulate the height of the bottom port of the second adjusting sleeve pipe 156 in floating chamber 152, also be, now, first adjusting sleeve pipe 155 forms the first passage flow duct jointly with downtake pipe 153, second adjusting sleeve pipe 156 forms the second passage flow duct jointly with second exhaust pipe 154, regulating the height of bottom port in floating chamber 152 of the first adjusting sleeve pipe 155 and the second adjusting sleeve pipe 156 actual is exactly the height of air inlet port in floating chamber 152 of adjustment first passage flow duct and the second passage flow duct.Or, as required, also described downtake pipe 153 and all vertical activity of second exhaust pipe 154 can be installed in seal diaphragm 151 to regulate the height of the bottom port of downtake pipe 153 and second exhaust pipe 154 in floating chamber 152, or also described downtake pipe 153 and second exhaust pipe 154 all can be fixedly attached on seal diaphragm 151 without regulatory function, as long as downtake pipe 153 is different from the height of bottom port in floating chamber 152 of second exhaust pipe 154 just can realize the double object that the utility model touches draining valve, its concrete structure is not as limit.

In the present embodiment, the bottom port height of described downtake pipe 153 is lower than second exhaust pipe 154 bottom port height.

In the present embodiment, described control member is the one way valve 230 be installed in second exhaust pipe 154, when switch piece and control member are staggered and coordinate, second exhaust pipe 154 closed by this one way valve 230, and when switch piece coordinates with control member phase contact, second exhaust pipe 154 opened by this one way valve 230.In the present embodiment, the return springs 30 for resetting to control member to be installed in floating drum and contact between one way valve 230 and second exhaust pipe 154.

In the present embodiment, described switch piece is rotate the fork 320 being installed in valve body 20, fork 320 has the first centering block 321 and the second centering block 322, first centering block 321 coordinates with the first button 21 transmission, pressing the first button 21 drives fork 320 to swing the second centering block 322 is staggered with one way valve 230, presses the second button 22 fork 320 and keeps motionless to make the second centering block 322 coordinate with one way valve 230 phase contact.

Its operating principle is:

Press the first button 21, first argue for the sake of arguing 24 drive floating drums 150 and control member upwards floats simultaneously, meanwhile, first button 21 drives fork 320 swing that the second centering block 322 is staggered with one way valve 230, second exhaust pipe 154 closed by one way valve 230, downtake pipe 153 keeps connecting floating chamber 152 and outside air, water enters in floating chamber 152 to be discharged from downtake pipe by the air in floating chamber 152, water level now in floating chamber 152 only can rise to and substantially flush place with the bottom port of the first adjusting sleeve pipe 155, because the bottom port height of the first adjusting sleeve pipe 155 is lower than the bottom port height of the second adjusting sleeve pipe 156, so time to float the amount that the air in chamber 152 is discharged less, the buoyancy of floating drum 150 is larger, its time of falling with water level decreasing is slower, so time displacement be the first row water yield, also be, for large displacement.

Press the second button 22, second argue for the sake of arguing 25 drive floating drums 150 and control member upwards floats simultaneously, meanwhile, second button 22 does not drive fork 320 swing to make fork 320 keep original state, second centering block 322 coordinates with one way valve 230 phase contact, second exhaust pipe 154 opened by one way valve 230, downtake pipe 153 and second exhaust pipe 154 all keep connecting floating chamber 152 and outside air, water enters in floating chamber 152 to be discharged from downtake pipe 153 and second exhaust pipe 154 by the air in floating chamber 152 simultaneously, water potential now in floating chamber 152 rises to and substantially flushes place with the bottom port of the second adjusting sleeve pipe 156, because the bottom port height of the second adjusting sleeve pipe 156 is higher than the first adjusting sleeve pipe 155 bottom port height, so time to float the amount that the air in chamber 152 is discharged more, the buoyancy of floating drum 150 is less, its time of falling with water level decreasing is very fast, so time displacement be the second row water yield, also be, for little displacement.

In the present embodiment, by regulating the first adjusting sleeve pipe 155 and the second adjusting sleeve pipe 156 to regulate the bottom port height of the first passage flow duct and the second passage flow duct respectively, and then control water enters the water level in floating chamber 152, realize the buoyancy controlling floating chamber 152, floating drum 150 fall time of different buoyancy is differed, the first row water yield and the second row water yield are distinguished adjustable, therefore the first row water yield also can be adjusted to little displacement, and the second row water yield can be adjusted to large displacement.

In the present embodiment, one way valve 230 is normally closed one way valve, also can be normal opening one-way valve as required.One way valve 230 can also be arranged in downtake pipe 153.

Or, one as the present embodiment preferably converts, downtake pipe 153 can be set and form described little passage flow duct, large passage flow duct described in second exhaust pipe 154 is formed separately, press water when the first button 21 mentions floating drum 150 to enter in floating chamber 152 and realize the first row water yield to be discharged from the little passage flow duct that downtake pipe 153 is formed by the air in floating chamber 152, press water when the second button 22 mentions floating drum 150 and enter in floating chamber 152 and discharge to realize the second row water yield with the large passage flow duct that the air in floating chamber 152 is formed from second exhaust pipe 154.Accordingly, described control member comprises the first one way valve being installed in downtake pipe and the second one way valve being installed in second exhaust pipe, when switch piece is staggered with the second one way valve, with the first one way valve phase contact, switch piece coordinates that downtake pipe is opened, second exhaust pipe closes, when switch piece is staggered with the first one way valve, with the second one way valve phase contact, switch piece coordinates that second exhaust pipe is opened, downtake pipe closes, so also can realize the purpose of this utility model, repeat no more here.

Or, another kind as the present embodiment preferably converts, described seal diaphragm 151 is only provided with a stack that can be connected with floating chamber 152 and outside air, little passage flow duct height lower formation described in of the bottom port of this stack in floating chamber 152 is made when operating the first starting switch, water enters in floating chamber 152 and realizes the first row water yield to be discharged from this little passage flow duct by the air in floating chamber 152, large passage flow duct height higher formation described in of the bottom port of this stack in floating chamber 152 is made when operating the second starting switch, water enters in floating chamber 152 to be discharged from this large passage flow duct to realize the second row water yield by the air in floating chamber 152, when operating the first starting switch, make the height of bottom port in floating chamber 152 of control member control stack lower by switch piece, when operating the second starting switch, make the height of bottom port in floating chamber 152 of control member control stack higher by switch piece, so also the purpose of this utility model can be realized, its operating principle and process and aforementionedly to repeat no more here.

Embodiment three:

Please refer to Figure 13 to Figure 19, for touching the 3rd preferred embodiment of the double controlling organization of draining valve.The difference of this embodiment and the second embodiment is:

In the present embodiment, described first passage flow duct is first row pore 157, and described second passage flow duct is second row pore 158,

Described control member activity is installed in floating chamber 152, control member comprises control panel 240, control panel 240 offers second transitional pore 241 that can be connected with first row pore 157, when switch piece and control member are staggered and coordinate, control panel 240 and seal diaphragm 151 fit to close second row pore 158 and first row pore 157 and the second transitional pore 241 are connected to make first row pore 157 stay open state, and when switch piece coordinates with control member phase contact, control panel 240 and seal diaphragm 151 are separated to open second row pore 158.

In the present embodiment, described switch piece is slide block 330, the horizontal sliding installation of this slide block 330 is at valve body 20 and first button 21 and the second button 22 that be in transmission connection, slide block 330 is to having press block 331, control member is provided with and is supported block 242, pressing the first button 21 is with movable slider 330 to slide to make press block 331 and supported block 242 and be staggered and coordinate, presses the second button 22 and is with movable slider 330 to slide press block 331 is coordinated with by block 242 phase contact.The structure of this switch piece is identical with the structure of the switch piece of the first embodiment.

In the present embodiment, this draining valve also comprises the first adjusting rod 251 and the second adjusting rod 252 rotating and be installed in control member, the top of the first adjusting rod 251 is provided with the first adjusting portion 253, the top of the second adjusting rod 252 is provided with the second adjusting portion 254, first adjusting portion 253 is positioned at the below of the second transitional pore 241 to regulate the size of the second transitional pore 241, and the second adjusting portion 254 is positioned on second row pore 158 to regulate the size of second row pore 158.

The drainage principle of the draining valve in the present embodiment is:

Press the first button 21, first argue for the sake of arguing 24 drive floating drums 150 and control member upwards floats simultaneously, meanwhile, first button 21 promotes slide block 330 and moves to the second button 22 direction, due to press block 331 with supported block 242 and be staggered and make control member continue to move up until control panel 240 and seal diaphragm 151 fit to close second row pore 158, and first row pore 157 and the second transitional pore 241 are connected to make first row pore 157 stay open state, first row pore 157 keeps connecting floating chamber 152 and outside air, water enters in floating chamber 152 to be discharged from first row pore 157 by the air in floating chamber 152, now because air can only be discharged from first row pore 157, the velocity of discharge is slow, so time to float the amount that the air in chamber 152 is discharged less, residual gas in floating drum 150 is many and buoyancy is larger, its time of falling with water level decreasing is slower, so time displacement be the first row water yield, also be, for large displacement.

Press the second button 22, second argue for the sake of arguing 25 drive floating drums 150 and control member upwards floats simultaneously, meanwhile, second button 22 promotes slide block 330 and moves to the first button 21 direction, due to press block 331 with supported block 242 phase contact and coordinated and make control member cannot continue to move up, control panel 240 and seal diaphragm 151 are separated second row pore 158 is opened, now first row pore 157 and second row pore 158 all keep connecting floating chamber 152 and outside air, water enters in floating chamber 152 to be discharged from first row pore 157 and second row pore 158 by the air in floating chamber 152 simultaneously, now because air can be discharged from first row pore 157 and second row pore 158 simultaneously, the velocity of discharge is fast, so time to float the amount that the air in chamber 152 is discharged more, residual gas in floating drum 150 is few and buoyancy is less, its time of falling with water level decreasing is very fast, so time displacement be the second row water yield, also be, for little displacement.

Same, in the present embodiment, and by adjustment first adjusting rod 251 and the second adjusting rod 252, to regulate the size of first row pore 157 and second row pore 158, when making draining, to enter the speed of discharging air in floating chamber 152 adjustable for water, and then the buoyancy of adjustable floating drum, realize the adjustment respectively to the first row water yield and the second row water yield.Therefore the first row water yield also can be adjusted to little displacement, the second row water yield can be adjusted to large displacement.

Or, one as the present embodiment preferably converts, as shown in Figure 20 to 24, little passage flow duct described in first row stomatal limiting value can be set, second row pore forms separately described large passage flow duct, when pressing the first button 21, water enters in floating chamber 152 and realizes the first row water yield to be discharged from the little passage flow duct that first row pore 157 is formed by the air in floating chamber 152, and when pressing the second button 22, water enters in floating chamber 152 and realizes second row water yield water to be discharged from the large passage flow duct that second row pore 157 is formed separately by the air in floating chamber 152.Accordingly, described control member comprises the first one way valve 260 being installed in first row pore and the second one way valve 270 being installed in second row pore, switch piece 340 is provided with the first press block 341 and the second press block 342, first one way valve 260 and the second one way valve 270 are respectively equipped with the first press block 341 and the second press block 342 is staggered or contact coordinates first is supported block 261 and second and supported block 271, when switch piece is staggered with the second one way valve 270, the first press block 341 and first is coordinated first row pore is opened by block 261 phase contact, second row stomatal closure, when switch piece is staggered with the first one way valve 260, the second press block 342 and second is coordinated second row pore is opened by block 271 phase contact, first row stomatal closure.

In the present embodiment, described first starting switch and the second starting switch activity of being respectively are installed in the first button 21 and the second button 22 on valve body 20, described switch piece is slide block 340, and the horizontal sliding installation of this slide block 340 is at valve body 20 and first button 21 and the second button 22 that be in transmission connection.

Press the first button and can independently open first row pore, press the second button and can independently open second row pore, as long as the size of first row pore and second row pore is arranged different, displacement just can be made different, the double-drainage object that the utility model touches draining valve can be realized, its operating principle is similar to above-mentioned, repeats no more here.

Or, another kind as the present embodiment preferably converts, as illustrated in figs. 25 and 26, described seal diaphragm 151 is provided with a steam vent 159 that can be connected with floating chamber 152 and outside air, the little passage flow duct described in the less formation of this steam vent 159 opened when operating the first starting switch, water enters in floating chamber 152 and realizes the first row water yield to be discharged from this little passage flow duct by the air in floating chamber 152, the large passage flow duct described in the larger formation of this steam vent 159 opened when operating the second starting switch, water enters in floating chamber 152 to be discharged from this large passage flow duct to realize the second row water yield by the air in floating chamber 152.When operating the first starting switch, make control member open this steam vent 159 by switch piece less, when operating the second starting switch, make control member open this steam vent 159 by switch piece larger.First starting switch and the second starting switch are respectively the first button 21 and the second button 22, and switch piece is slide block 340, and slide block 340 is provided with the first low briquetting 341 and the second low briquetting 342, and control member is controlled valve 280, and controlled valve 280 is provided with and is supported block 281.Press the first button 21, the on slide block 340 first low briquetting 341 coordinates the less passage flow duct that makes of the degree that controlled valve 280 is opened less with block 281 contact of being supported on controlled valve 280; Press the second button 22, on slide block 340 second low briquetting 342 coordinates the degree that controlled valve 280 is opened to make more greatly passage flow duct larger with block 281 contact of being supported on controlled valve 280, and then realize the first row water yield and the second row water yield of draining valve, so also the purpose of this utility model can be realized, its operating principle and process similar to the above, repeat no more here.

Embodiment four:

Please refer to Figure 27, the difference of the present embodiment and foregoing embodiments is:

In the present embodiment, described valve body 20 does not arrange guide peg 23, but is provided with a housing 28, and housing 28 is fixedly attached on base 10, and hollow form floating drum 110,150 to be socketed within housing 28 and vertically to move back and forth along this housing 28.

In the utility model, above all embodiment switch pieces all can select the slide block structure in embodiment one, also can select the centering block structure in embodiment two, or switching construction known in the art, and it can be selected as required.

In the utility model, the first button and the second button are touch-tone starting switches, and it obviously also can adopt other starting switch forms as known in the art, as the starting switch of Wrench-type structure, can select as required.

The above, be only the utility model preferred embodiment, therefore the scope that the utility model implements can not be limited according to this, the equivalence namely done according to the utility model the scope of the claims and description change with modify, all should still belong in scope that the utility model contains.

Claims (22)

1. one kind is touched the double controlling organization of draining valve, it comprises base (10), float component and start assembly, the upper attaching valve body (20) of base (10), base (10) offers outfall (11), float component can move relative to described base (10) and can open or close outfall (11), it is characterized in that:

Start assembly comprises the first starting switch and the second starting switch, float component activity is installed in valve body (20) and the start assembly that is in transmission connection, float component is provided with passage flow duct, passage flow duct is communicated with the floating chamber (112 of float component, 152), inside and outside, start assembly controls the size of this passage flow duct;

Operating the first starting switch drives float component to rise, and start assembly opens a little passage flow duct, and suffered the making a concerted effort of float component is subject to the impact of this little passage flow duct and realizes the first row water yield; Operating the second starting switch drives float component to rise, and start assembly opens a large passage flow duct, the suffered of float component realizes the second row water yield by the impact of this large passage flow duct with joint efforts.

2. a kind of double controlling organization touching draining valve according to claim 1, it is characterized in that: start assembly also comprises switch piece and control member, switch piece is in transmission connection the first starting switch and the second starting switch, switch piece coordinates with control member transmission, control member matches with described passage flow duct, operates the first starting switch or the second starting switch by switch piece transmission control member to control size or the opening and closing of passage flow duct.

3. a kind of double controlling organization touching draining valve according to claim 2, it is characterized in that: described first starting switch and the second starting switch comprise activity respectively and be installed in the first button (21) on valve body (20) and the second button (22), described switch piece is slide block (310, 330, 340), this slide block (310, 330, 340) horizontal sliding installation is at valve body (20) and be in transmission connection the first button (21) and the second button (22), slide block (310, 330, 340) press block (311 is provided with, 331, 341, 342), control member is provided with and is supported block (220, 242, 261, 271, 281), by press block (311, 331, 341, 342) with by support block (220, 242, 261, 271, 281) to be staggered or contact coordinates and realizes switch piece and coordinate with the transmission of control member.

4. a kind of double controlling organization touching draining valve according to claim 2, it is characterized in that: described first starting switch and the second starting switch comprise activity respectively and be installed in the first button (21) on valve body (20) and the second button (22), described switch piece is the fork (320) that rotation is installed in valve body (20), fork (320) has the first centering block (321) and the second centering block (322), first centering block (321) coordinates with button transmission, second centering block (322) is staggered with control member or phase contact coordinates and realizes switch piece and coordinate with the transmission of control member.

5. a kind of double controlling organization touching draining valve according to claim 1, it is characterized in that: described float component comprises floating drum (110) and is installed in the base plate (120) of floating drum (110) bottom, described floating chamber (112) is formed between base plate (120) and floating drum (110), base plate (120) is provided with the inlet through hole connecting described floating chamber (112) and outfall (11), operate the little passage flow duct described in the less formation of this inlet through hole that the first starting switch is opened, water enters floating drum (110) inside from this little passage flow duct and realizes the first row water yield, operate the large passage flow duct described in the larger formation of this inlet through hole that the second starting switch is opened, water enters floating drum (110) inside from this large passage flow duct and realizes the second row water yield.

6. a kind of double controlling organization touching draining valve according to claim 1, it is characterized in that: described float component comprises floating drum (110) and is installed in the base plate (120) of floating drum (110) bottom, described floating chamber (112) is formed between base plate (120) and floating drum (110), base plate (120) is provided with the first inlet through hole (121) and the second inlet through hole (122) that can connect described floating chamber (112) and outfall (11), little passage flow duct described in first inlet through hole (121) is formed, large passage flow duct described in second inlet through hole (122) is formed, or the first inlet through hole (121) and the second inlet through hole (122) form described large passage flow duct jointly, when operating the first starting switch, to enter floating drum (110) from the little passage flow duct that the first inlet through hole (121) is formed inner and realize the first row water yield for water, when operating the second starting switch, water enters the inner or water of floating drum (110) from the large passage flow duct that the second inlet through hole (122) is formed and enters floating drum (110) inside to realize the second row water yield from the large passage flow duct that the first inlet through hole (121) and the second inlet through hole (122) are formed jointly.

7. a kind of double controlling organization touching draining valve according to claim 2, it is characterized in that: described float component comprises floating drum (110) and is installed in the base plate (120) of floating drum (110) bottom, described floating chamber (112) is formed between base plate (120) and floating drum (110), base plate (120) is provided with the first inlet through hole (121) and the second inlet through hole (122) that can connect described floating chamber (112) and outfall (11), little passage flow duct described in first inlet through hole (121) is formed, large passage flow duct described in second inlet through hole (122) is formed, or the first inlet through hole (121) and the second inlet through hole (122) form described large passage flow duct jointly, when operating the first starting switch, to enter floating drum (110) from the little passage flow duct that the first inlet through hole (121) is formed inner and realize the first row water yield for water, when operating the second starting switch, water enters the inner or water of floating drum (110) from the large passage flow duct that the second inlet through hole (122) is formed and enters floating drum (110) inside to realize the second row water yield from the large passage flow duct that the first inlet through hole (121) and the second inlet through hole (122) are formed jointly.

8. a kind of double controlling organization touching draining valve according to claim 7, it is characterized in that: described control member comprises the first one way valve being installed in the first inlet through hole (121) and the second one way valve being installed in the second inlet through hole (122), when switch piece is staggered with the second one way valve, switch piece coordinates the first inlet through hole (121) is opened with the first one way valve phase contact, second inlet through hole (122) is closed, when switch piece is staggered with the first one way valve, switch piece coordinates the second inlet through hole (122) is opened with the second one way valve phase contact, first inlet through hole (121) is closed.

9. a kind of double controlling organization touching draining valve according to claim 7, it is characterized in that: described control member is installed in floating drum (110), control member comprises a control panel (210), control panel (210) offers the First Transition hole (211) that can be connected with the first inlet through hole (121), when switch piece and control member are staggered and coordinate, control panel (210) and base plate (120) fit to close the second inlet through hole (122) and the first inlet through hole (121) and First Transition hole (211) are connected to make the first inlet through hole (121) stay open state, when switch piece coordinates with control member phase contact, control panel (210) and base plate (120) are separated to open the second inlet through hole (122).

10. a kind of double controlling organization touching draining valve according to claim 6 or 7, it is characterized in that: also comprise the first adjustment sheet (130) and the second adjustment sheet (140) that rotate relative to base plate (120) respectively, first adjustment sheet (130) offers the first adjustment hole (131) for regulating the first inlet through hole (121) size, and the second adjustment sheet (140) offers the second adjustment hole (141) for regulating the second inlet through hole (122) size.

11. a kind of double controlling organizations touching draining valve according to claim 1, it is characterized in that: described float component comprises floating drum (150) and is installed in the seal diaphragm (151) in floating drum (150), described floating chamber (152) is formed between floating drum (150) and seal diaphragm (151), floating chamber (152) is connected with outfall (11), seal diaphragm (151) is provided with the one stack/hole that can be connected with floating chamber (152) and outside air, this the little passage flow duct described in less formation in stack/hole opened when operating the first starting switch, water enters in floating chamber (152) and realizes the first row water yield to be discharged from this little passage flow duct by the air floated in chamber (152), this the large passage flow duct described in larger formation in stack/hole opened when operating the second starting switch, water enters in floating chamber (152) to be discharged from this large passage flow duct to realize the second row water yield by the air floated in chamber (152).

12. a kind of double controlling organizations touching draining valve according to claim 1, it is characterized in that: described float component comprises floating drum (150) and is installed in the seal diaphragm (151) in floating drum (150), described floating chamber (152) is formed between floating drum (150) and seal diaphragm (151), floating chamber (152) is connected with outfall (11), seal diaphragm (151) is provided with the downtake pipe/hole and second exhaust pipe/hole that can be connected with floating chamber (152) and outside air, downtake pipe/hole forms described little passage flow duct, second exhaust pipe/hole forms described large passage flow duct, or downtake pipe/hole and second exhaust pipe/hole form described large passage flow duct jointly, when operating the first starting switch, water enters in floating chamber (152) so that the air float in chamber (152) is realized the first row water yield from the little passage flow duct discharge of downtake pipe/hole formation, when operating the second starting switch water enter in floating chamber (152) with will the large passage flow duct discharge that jointly formed of the large passage flow duct discharge that formed from second exhaust pipe/hole of the air float in chamber (152) or downtake pipe/hole and second exhaust pipe/hole to realize the second row water yield.

13. a kind of double controlling organizations touching draining valve according to claim 2, it is characterized in that: described float component comprises floating drum (150) and is installed in the seal diaphragm (151) in floating drum (150), described floating chamber (152) is formed between floating drum (150) and seal diaphragm (151), floating chamber (152) is connected with outfall (11), seal diaphragm (151) is provided with the downtake pipe/hole and second exhaust pipe/hole that can be connected with floating chamber (152) and outside air, downtake pipe/hole forms described little passage flow duct, second exhaust pipe/hole forms described large passage flow duct, or downtake pipe/hole and second exhaust pipe/hole form described large passage flow duct jointly, when operating the first starting switch, water enters in floating chamber (152) so that the air float in chamber (152) is realized the first row water yield from the little passage flow duct discharge of downtake pipe/hole formation, when operating the second starting switch water enter in floating chamber (152) with will the large passage flow duct discharge that jointly formed of the large passage flow duct discharge that formed from second exhaust pipe/hole of the air float in chamber (152) or downtake pipe/hole and second exhaust pipe/hole to realize the second row water yield.

14. a kind of double controlling organizations touching draining valve according to claim 13, it is characterized in that: described control member comprises the first one way valve (260) being installed in downtake pipe/hole and the second one way valve (270) being installed in second exhaust pipe/hole, when switch piece is staggered with the second one way valve (270), switch piece coordinates downtake pipe/hole is opened with the first one way valve (260) phase contact, second exhaust pipe/bore closure, when switch piece is staggered with the first one way valve (260), switch piece coordinates second exhaust pipe/hole is opened with the second one way valve (270) phase contact, downtake pipe/bore closure.

15. a kind of double controlling organizations touching draining valve according to claim 13, it is characterized in that: described downtake pipe (153) forms described little passage flow duct, described downtake pipe (153) and second exhaust pipe (154) form described large passage flow duct jointly, described control member is for being installed in the one way valve (230) in second exhaust pipe (154), downtake pipe (153) remains open mode, when switch piece and control member are staggered and coordinate, second exhaust pipe (154) closed by this one way valve (230), when switch piece coordinates with control member phase contact, second exhaust pipe (154) opened by this one way valve (230).

16., according to claim 12 to a kind of double controlling organization touching draining valve described in 15 any one, is characterized in that: described downtake pipe (153) and second exhaust pipe (154) all vertically activity are installed in seal diaphragm (151) to regulate the height of the bottom port of downtake pipe (153) and second exhaust pipe (154) in floating chamber (152), or, described downtake pipe (153) and second exhaust pipe (154) are all fixedly attached in seal diaphragm (151), separately be provided with the first adjusting sleeve pipe (155) and the second adjusting sleeve pipe (156), first adjusting sleeve pipe (155) is actively socketed on downtake pipe (153) bottom to regulate the height of the bottom port of the first adjusting sleeve pipe (155) in floating chamber (152), second adjusting sleeve pipe (156) is actively socketed on second exhaust pipe (154) bottom to regulate the height of the bottom port of the second adjusting sleeve pipe (156) in floating chamber (152).

17. a kind of double controlling organizations touching draining valve according to claim 13, it is characterized in that: described first row pore (157) forms described little passage flow duct, described first row pore (157) and second row pore (158) form described large passage flow duct jointly, described control member activity is installed in floating chamber (152), control member comprises control panel (240), control panel (240) offers second transitional pore (241) that can be connected with first row pore (157), when switch piece and control member are staggered and coordinate, control panel (240) and seal diaphragm (151) fit to close second row pore (158) and first row pore (157) and the second transitional pore (241) are connected to make first row pore (157) stay open state, when switch piece coordinates with control member phase contact, control panel (240) and seal diaphragm (151) are separated to open second row pore (158).

18. a kind of double controlling organizations touching draining valve according to claim 12 or 13 or 14 or 17, it is characterized in that: also comprise activity and be installed in the first adjusting rod (251) in float component and the second adjusting rod (252), the top of the first adjusting rod (251) is provided with the first adjusting portion (253), the top of the second adjusting rod (252) is provided with the second adjusting portion (254), first adjusting portion (253) regulates the size of first row pore, and the second adjusting portion regulates the size of second row pore (158).

19. a kind of double controlling organizations touching draining valve according to claim 1, it is characterized in that: described float component comprises the hollow form floating drum (110 of a longitudinally Axis Extension, 150), described hollow form floating drum (110,150) and valve body (20) are socketed and coordinate and move back and forth along valve body (20) vertical direction.

20. a kind of double controlling organizations touching draining valve according to claim 19, it is characterized in that: described valve body (20) is provided with guide peg (23), guide peg (23) is fixedly attached on base (10), hollow form floating drum (110,150) to be socketed on outside guide peg (23) and vertically to move back and forth along this guide peg (23).

21. a kind of double controlling organizations touching draining valve according to claim 19, it is characterized in that: described valve body (20) is provided with a housing (28), housing (28) is fixedly attached on base (10), hollow form floating drum (110,150) to be socketed within housing (28) and vertically to move back and forth along this housing (28).

22. a kind of double controlling organizations touching draining valve according to claim 1, it is characterized in that: described start assembly also comprises at least onely argues for the sake of arguing (24,25), argue for the sake of arguing (24,25) activity to be secured on valve body and the float component that is in transmission connection, operate the first starting switch or the second starting switch make to argue for the sake of arguing (24,25) swing and mention float component and carry out draining.